CN106522789A - Automatic opening and closing explosion-proof and fireproof safety door device and working method thereof - Google Patents

Abstract

The invention discloses an automatic opening and closing explosion-proof and fireproof safety door device and a working method thereof. The automatic opening and closing explosion-proof and fireproof safety door device is composed of a fixing frame, a controller, an alarm, a lifting device, a pressure sensor, a protecting plate, a temperature sensor and sliding rails. The sliding rails are arranged on the two sides of the interior of the fixing frame. The lifting device is arranged at the top ends of the sliding rails. The controller is arranged at the center of the upper portion of the lifting device. The alarm is located at the upper end of one of the sliding rails. The protecting plate is located between the two sliding rails. The pressure sensor and the temperature sensor are arranged in the center of the protecting plate. According to the automatic opening and closing explosion-proof and fireproof safety door device and the working method thereof, the device is low in dead weight and manufacturing cost, safe, environmentally friendly, easy to transport and install and stable in performance, materials are firm, the device can effectively cope with a fire scene, and a fire and toxic and harmful gas, smoke, dust and other impurity particles generated in the fire are effectively isolated.

Description

A kind of automatic open-close anti-explosion fire safety-door device and its method of work

Technical field

The invention belongs to fire equipment field, and in particular to a kind of automatic open-close anti-explosion fire safety-door device and its work Method.

Background technology

Fire-proof and explosion-proof door is obtained in architectural engineering design for fire protection as a kind of fire separation facility attractive in appearance, easy to use To being widely applied, it in addition to the effect with common door, within a certain period of time, together with framework can meet fire stability, Integrality, with fire prevention, every cigarette, the specific function of stop high temperature, voluntarily can close and signal feedback function when there is fire.

At present, in petrochemical industry, power domain, it is fitted with the heating furnace that used, Industrial Boiler fire-proof and explosion-proof Door, to the safety for ensureing body of heater.Conventional explosion proof door exposes problems with normal use：First, it is conventional anti- The heat-proof quality of quick-fried door is poor, heat is distributed by the body of body of heater, while causing the temperature of body of heater to raise；Make heat Amount is scattered and disappeared in road surrounding air by body of heater；Secondly, the sealing of conventional explosion proof door is poor, easily makes furnace gas take away heat Amount, causes the loss of heat, makes the slatterning in vain of the energy in body of heater, reduces the efficiency of heating furnace.

In addition because fire-proof and explosion-proof door has fire performance, people's life has also gradually been entered into.Existing fire-proof and explosion-proof door exists When fire occurs, flameproof effect can be generally played, but when the fiery face of the back of the body of the user in fire resistant doorsets, if accidentally touched anti- Fiery explosion proof door back of the body fire face, because of heat-conduction effect, can cause user to scald.Conventional fire resistant doorsets are all as anti-using metal in addition The main material of vent, quality are heavier, and inconvenience is brought during installation.Due to due to weight, so using It is extremely inconvenient.

The content of the invention

In order to solve above-mentioned technical problem, the present invention provides a kind of automatic open-close anti-explosion fire safety-door device and its work Method, including：Fixed mount 1, controller 2, alarm 3, lowering or hoisting gear 4, pressure sensor 5, protective plate 6, temperature sensor 7, Dragging track 8；1 structure of the fixed mount is in " Jiong " shape, and 1 inside both sides of fixed mount are provided with dragging track 8,8 quantity of dragging track For 2, dragging track 8 is screwed with fixed mount 1；8 top of the dragging track is provided with lowering or hoisting gear 4, wherein lowering or hoisting gear 4 Central upper portion is provided with controller 2, and controller 2 is threadedly coupled with fixed mount 1；The alarm 3 is located in one of dragging track 8 Upper end, alarm 3 are threadedly coupled with fixed mount 1；The protective plate 6 be located at two dragging tracks 8 between, protective plate 6 with slide Track 8 is slidably connected；6 center of the protective plate is provided with pressure sensor 5 and temperature sensor 7；

The alarm 3, pressure sensor 5 and temperature sensor 7 are connected with the control of controller 2 by wire.

Further, the lowering or hoisting gear 4 includes：Power set 4-1, protective plate position sensor 4-2, Smoke Sensor 4-3, power transmission shaft 4-4, spring bearing 4-5, driven sprocket 4-6, support base 4-7, weight linear meter 4-8；Described power transmission shaft 4-4 one end sets Dynamic device 4-1, the power transmission shaft 4-4 other ends are provided with driven sprocket 4-6, wherein power set 4-1 and power transmission shaft 4-4 and drive and connect Connect；Support base 4-7 is disposed with the power transmission shaft 4-4, support base 4-7 quantity is 3,3 support base 4-7 equidistant arrangements, Support seat 4-7 is fixedly connected with fixed mount 1；The spring bearing 4-5 through power transmission shaft 4-4 centers, spring bearing 4-5 with wherein One support base 4-7 is fixedly connected；It is described to be disposed with protective plate location sensitive on the support base 4-7 at power transmission shaft 4-4 centers Device 4-2 and Smoke Sensor 4-3；The weight linear meter 4-8 is located on front side of dragging track 8, and wherein weight linear meter 4-8 quantity is 2；

The power set 4-1, protective plate position sensor 4-2 and Smoke Sensor 4-3 pass through wire and controller 2 is controlled It is connected.

Further, the power set 4-1 includes：Self-locking motor 4-1-1, gearbox 4-1-2, shaft coupling 4-1-3, it is main Movable sprocket 4-1-4；The self-locking motor 4-1-1 output shaft ends are connected with gearbox 4-1-2, gearbox 4-1-2 and self-locking motor 4-1-1 drive connections；The gearbox 4-1-2 output shaft ends are connected with shaft coupling 4-1-3, wherein the shaft coupling 4-1-3 other ends It is fixedly connected with power transmission shaft 4-4；The drive sprocket 4-1-4 is located at shaft coupling 4-1-3 sides, shaft coupling 4-1-3 and power transmission shaft 4-4 is fixedly connected；

The self-locking motor 4-1-1 is connected with the control of controller 2 by wire.

Further, the protective plate 6 is molded by macromolecular material pressing mold, the constituent and manufacture process of protective plate 6 It is as follows：

First, 6 constituent of protective plate：

Count by weight, 140～285 parts of 1- (4- bromophenyls) piperidin-4-yl t-butyl carbamate, (5- amino -2- (4- Isopropyl piperazine -1- bases) phenyl) 53～174 parts of methyl alcohol, 1- (4- (4,4,5,5- tetramethyl -1,3,2- diborane -2- bases) Phenyl) 33～125 parts of piperidin-4-yl urethanes, [4- [[3- (3- azepine pyridines) -2- pyrazines] epoxide] phenyl] -1H- benzene And 86～193 parts of imidazoles -2- bases ketone, 4- (4- (4,4,5,5- tetramethyl -1,3,2- diborane -2- bases) phenyl) piperidines - 57～181 parts of 1- carboxylate methyl esters, 81～197 parts of 5- amino-n- methoxyl group-n- methyl -2- pyridine carboxamides, concentration is 51ppm (5- amino -2- (4- isopropyl piperazine -1- bases) phenyl) 92～161 parts of methyl alcohol of～69ppm, 6- (2- pyrimidines) -2,6- phenodiazines Miscellaneous spiral shell [3.3] heptane -2- carboxylic acids 1,82～119 parts of 1- dimethylethyl esters, tetrahydrochysene -1H- thienos [3,4-c] pyrroles -5 (3h) - 72～133 parts of benzyl carboxylate, 94～213 parts of crosslinking agent, 2- acetyl group -4- methyl-n- phenethyl -4- amylenes acid amides 51～150 Part, 5- (1- ((2- (trimethyl silyl) ethyoxyl) methyl) iodo- 1H- imidazos [4, the 5-b] pyridine -2- bases of the chloro- 5- of -6- Epoxide) 41～169 parts of -2- methyl toluates, 5- amino -2- (4- ethyl -1- piperazines) 38～144 parts of phenmethylol；

The crosslinking agent is 4- (4- bromophenyls) piperidines -1- carboxylate methyl esters, 4- (4- bromophenyls) piperidines -1- carboxylic acid isopropyls, piperazine Any one in pyridine -4- base isopropyl carbamates；

2nd, the manufacture process of protective plate 6, comprises the steps of：

1st step：3100～4200 parts of the ultra-pure water that electrical conductivity is 4.87 μ S/cm～6.69 μ S/cm is added in a kettle., is started Agitator in reactor, rotating speed are 94rpm～162rpm, start heat pump, make reactor temperature rise to 84 DEG C～124 ℃；Sequentially add 1- (4- bromophenyls) piperidin-4-yl t-butyl carbamate, (5- amino -2- (4- isopropyl piperazine -1- bases) Phenyl) methyl alcohol, 1- (4- (4,4,5,5- tetramethyl -1,3,2- diborane -2- bases) phenyl) piperidin-4-yl urethane Ester, stirs to being completely dissolved, and it is 4.29～6.64 to adjust pH value, and agitator speed is adjusted to 140rpm～212rpm, and temperature is 145 DEG C～226 DEG C, esterification 18～28 hours；

2nd step：Take [4- [[3- (3- azepine pyridines) -2- pyrazines] epoxide] phenyl] -1H- benzimidazolyl-2 radicals-base ketone, 4- (4- (4, 4,5,5- tetramethyl -1,3,2- diborane -2- bases) phenyl) piperidines -1- carboxylate methyl esters are crushed, and powder diameter is 700～ 1000 mesh；Add 5- amino-n- methoxyl group-n- methyl -2- pyridine carboxamides to be well mixed, be laid in pallet, tile thickness For 10mm～18mm, adopt dosage for 5.5kGy～7.9kGy, energy for 7.6MeV～10.8MeV alpha ray irradiation 130～ 240 minutes, and β x ray irradiation xs of Isodose 130～240 minutes；

3rd step：The mixed-powder of the 2nd steps of Jing process is dissolved in 51ppm～69ppm (5- amino -2- (4- isopropyl piperazine -1- bases) Phenyl) in methyl alcohol, reactor is added, agitator speed is 162rpm～258rpm, and temperature is 142 DEG C～166 DEG C, starts vacuum Pump makes the vacuum of reactor reach -0.42MPa～4.54MPa, keeps this state response 14～23 hours；Pressure release is simultaneously passed through radon Gas, makes reacting kettle inner pressure for 1.53MPa～2.45MPa, insulation standing 6～12 hours；Agitator speed is promoted to 195rpm ～283rpm, simultaneous reactions kettle pressure release to 0MPa；Sequentially add 6- (2- pyrimidines) -2,6- diaza spiroheptane -2- carboxylic acids After 1,1- dimethylethyl esters, -5 (3h)-benzyl carboxylate of tetrahydrochysene -1H- thienos [3,4-c] pyrroles are completely dissolved, crosslinking agent is added Stirring mixing so that the hydrophilic lipophilic balance of reactor solution is 6.36～9.56, and insulation stands 16～24 hours；

4th step：When agitator speed is 257rpm～378rpm, 2- acetyl group -4- methyl-n- phenethyl -4- are sequentially added Amylene acid amides, 5- (1- ((2- (trimethyl silyl) ethyoxyl) methyl) iodo- 1H- imidazos [4,5-b] pyrroles of the chloro- 5- of -6- Pyridine -2- base epoxides) -2- methyl toluates and 5- amino -2- (4- ethyl -1- piperazines) phenmethylol, reactor pressure is lifted, 1.87MPa～3.16MPa is reached, temperature is 231 DEG C～318 DEG C, polymerisation 26～48 hours；Will be anti-after the completion of reaction Answer pressure in kettle to be down to 0MPa, be cooled to 26 DEG C～32 DEG C, discharge, enter molding press and can be prepared by protective plate 6.

Further, the invention also discloses the work of a kind of automatic open-close anti-explosion fire safety-door device and its method of work Make method, the method includes following step：

1st step：After the device installation, power-on is now placed in the controller 2 inside the device and starts working, control Self-locking motor 4-1-1 inside the control power set 4-1 of device 2 starts, and self-locking motor 4-1-1 drives drive sprocket 4-1-4 prevent Backplate 6 is driven to initial position, and at the same time the protective plate position sensor 4-2 real-time monitorings inside lowering or hoisting gear 4 are anti- The position of backplate 6；When protective plate position sensor 4-2 detects protective plate 6 moves to the initial value of its setting, protective plate position Put inductor 4-2 and produce electric signal, transmit to controller 2, the control self-locking motor 4-1-1 of controller 2 stops operating and self-locking；

2nd step：When the temperature sensor 7 on protective plate 6 monitors that ambient temperature reaches the higher limit of its setting, or Smoke Sensor 4-3 inside lowering or hoisting gear 4 detect smokescope higher than its setting value when, Smoke Sensor 4-3 and Temperature sensor 7 produces electric signal, transmits to controller 2, and the control self-locking motor 4-1-1 of controller 2 starts, while alarm 3 Start, self-locking motor 4-1-1 drives protective plate 6 to block up door seal, at the same time the protection of protective plate position sensor 4-2 real-time monitorings The position of plate 6, after door is blocked by protective plate 6 completely, protective plate position sensor 4-2 produces electric signal, transmits to controller 2, the control self-locking motor 4-1-1 of controller 2 stops operating and self-locking；

3rd step：When the temperature sensor 7 on protective plate 6 monitors that ambient temperature is reduced to the lower limit of its setting, or Person be located at lowering or hoisting gear 4 inside Smoke Sensor 4-3 detect smokescope less than its setting value when, Smoke Sensor 4-3 Electric signal is produced with temperature sensor 7, is transmitted to controller 2, the control self-locking motor 4-1-1 of controller 2 starts, self-locking motor 4- 1-1 drive protective plates 6 are supervised in real time to initial position, at the same time the protective plate position sensor 4-2 inside lowering or hoisting gear 4 Survey the position of protective plate 6；When protective plate position sensor 4-2 detects protective plate 6 moves to the initial value of its setting, protection Board position inductor 4-2 produces electric signal, transmits to controller 2, and the control self-locking motor 4-1-1 of controller 2 stops operating simultaneously certainly Lock；

4th step：When door is blocked by protective plate 6 completely, now pressure sensor 5 is started working, real-time monitoring ambient pressure, pressure Force snesor 5 produces electric signal, and transmits to controller 2, and monitoring information is fed back to user by controller 2.

A kind of automatic open-close anti-explosion fire safety-door device disclosed by the invention and its method of work, have an advantage in that：

(1) the device protective plate adopts macromolecular material, light weight, protection against the tide, heat-resisting, cracking resistance, firm is unlikely to deform；

(2) installation cost is low, nonpoisonous and tasteless, environment friendly and pollution-free；

(3) the plant automation low degree, with various monitoring functions, can be automatically obtained folding.

(4) the device good sealing effect, can effectively completely cut off the poisonous, pernicious gas and smog, dust produced in fire Deng impurity particle.

A kind of automatic open-close anti-explosion fire safety-door device of the present invention and its method of work, the device conduct oneself with dignity and Low cost of manufacture, safety and environmental protection, it is easy to transport and installation；The plant automation degree is high, built-in multiple monitoring devices can and When tackle emergency situations；The device performance is stable, and material is firm, can successfully manage scene of fire, effectively isolation fire and fire The impurity particle such as the poisonous, pernicious gas produced in calamity and smog, dust.

Description of the drawings

Fig. 1 is a kind of heretofore described automatic open-close anti-explosion fire safety-door device and its method of work structural representation Figure.

Fig. 2 is heretofore described lifting device structure schematic diagram.

Fig. 3 is heretofore described powerplant configuration schematic diagram.

Fig. 4 is that heretofore described protective plate fatigue strength changes over figure.

In figure 1 above～Fig. 3, fixed mount 1, controller 2, alarm 3, lowering or hoisting gear 4, power set 4-1, self-locking motor 4-1-1, gearbox 4-1-2, shaft coupling 4-1-3, drive sprocket 4-1-4, protective plate position sensor 4-2, Smoke Sensor 4- 3, power transmission shaft 4-4, spring bearing 4-5, driven sprocket 4-6, support base 4-7, weight linear meter 4-8, pressure sensor 5, protective plate 6, Temperature sensor 7, dragging track 8.

Specific embodiment

With reference to the accompanying drawings and examples to the present invention provide a kind of automatic open-close anti-explosion fire safety-door device and its Method of work is further described.

As shown in figure 1, being a kind of heretofore described automatic open-close anti-explosion fire safety-door device and its method of work Structural representation.It is seen in fig. 1, that including：Fixed mount 1, controller 2, alarm 3, lowering or hoisting gear 4, pressure sensor 5 are prevented Backplate 6, temperature sensor 7, dragging track 8；1 structure of the fixed mount is in " Jiong " shape, and 1 inside both sides of fixed mount are provided with slides rail Road 8,8 quantity of dragging track are 2, and dragging track 8 is screwed with fixed mount 1；8 top of the dragging track is provided with lifting dress 4 are put, wherein 4 central upper portion of lowering or hoisting gear is provided with controller 2, and controller 2 is threadedly coupled with fixed mount 1；The alarm 3 is located at 8 upper end of one of dragging track, alarm 3 are threadedly coupled with fixed mount 1；The protective plate 6 positioned at two dragging tracks 8 it Between, protective plate 6 is slidably connected with dragging track 8；6 center of the protective plate is provided with pressure sensor 5 and temperature sensor 7；

The alarm 3, pressure sensor 5 and temperature sensor 7 are connected with the control of controller 2 by wire.

As shown in Fig. 2 being heretofore described lifting device structure schematic diagram.Find out from Fig. 2 or Fig. 1, lifting dress Putting 4 includes：Power set 4-1, protective plate position sensor 4-2, Smoke Sensor 4-3, power transmission shaft 4-4, spring bearing 4-5, Driven sprocket 4-6, support base 4-7, weight linear meter 4-8；Described power transmission shaft 4-4 one end is provided with power set 4-1, and power transmission shaft 4-4 is another One end is provided with driven sprocket 4-6, wherein power set 4-1 and power transmission shaft 4-4 drive connections；It is disposed with the power transmission shaft 4-4 Support base 4-7, support base 4-7 quantity is 3, and 3 support base 4-7 equidistant arrangements, support base 4-7 are fixedly connected with fixed mount 1； The spring bearing 4-5 is fixedly connected through power transmission shaft 4-4 centers, spring bearing 4-5 with one of support base 4-7；Institute Rheme is disposed with protective plate position sensor 4-2 and Smoke Sensor 4-3 on the support base 4-7 at power transmission shaft 4-4 centers；It is described Weight linear meter 4-8 is located on front side of dragging track 8, and wherein weight linear meter 4-8 quantity is 2；

The power set 4-1, protective plate position sensor 4-2 and Smoke Sensor 4-3 pass through wire and controller 2 is controlled It is connected.

As shown in figure 3, being heretofore described powerplant configuration schematic diagram.Find out from Fig. 3 or Fig. 1 or Fig. 2, move Power apparatus 4-1 includes：Self-locking motor 4-1-1, gearbox 4-1-2, shaft coupling 4-1-3, drive sprocket 4-1-4；The self-locking electricity Machine 4-1-1 output shaft ends are connected with gearbox 4-1-2, gearbox 4-1-2 and self-locking motor 4-1-1 drive connections；The speed change Case 4-1-2 output shaft ends are connected with shaft coupling 4-1-3, and the wherein shaft coupling 4-1-3 other ends are fixedly connected with power transmission shaft 4-4；Institute Drive sprocket 4-1-4 is stated positioned at shaft coupling 4-1-3 sides, shaft coupling 4-1-3 is fixedly connected with power transmission shaft 4-4；

The self-locking motor 4-1-1 is connected with the control of controller 2 by wire.

The course of work of a kind of automatic open-close anti-explosion fire safety-door device of the present invention and its method of work is：

1st step：After the device installation, power-on is now placed in the controller 2 inside the device and starts working, control Self-locking motor 4-1-1 inside the control power set 4-1 of device 2 starts, and self-locking motor 4-1-1 drives drive sprocket 4-1-4 prevent Backplate 6 is driven to initial position, and at the same time the protective plate position sensor 4-2 real-time monitorings inside lowering or hoisting gear 4 are anti- The position of backplate 6；When protective plate position sensor 4-2 detects protective plate 6 moves to the initial value of its setting, protective plate position Put inductor 4-2 and produce electric signal, transmit to controller 2, the control self-locking motor 4-1-1 of controller 2 stops operating and self-locking；

2nd step：When the temperature sensor 7 on protective plate 6 monitors that ambient temperature reaches the higher limit of its setting, or Smoke Sensor 4-3 inside lowering or hoisting gear 4 detect smokescope higher than its setting value when, Smoke Sensor 4-3 and Temperature sensor 7 produces electric signal, transmits to controller 2, and the control self-locking motor 4-1-1 of controller 2 starts, while alarm 3 Start, self-locking motor 4-1-1 drives protective plate 6 to block up door seal, at the same time the protection of protective plate position sensor 4-2 real-time monitorings The position of plate 6, after door is blocked by protective plate 6 completely, protective plate position sensor 4-2 produces electric signal, transmits to controller 2, the control self-locking motor 4-1-1 of controller 2 stops operating and self-locking；

3rd step：When the temperature sensor 7 on protective plate 6 monitors that ambient temperature is reduced to the lower limit of its setting, or Person be located at lowering or hoisting gear 4 inside Smoke Sensor 4-3 detect smokescope less than its setting value when, Smoke Sensor 4-3 Electric signal is produced with temperature sensor 7, is transmitted to controller 2, the control self-locking motor 4-1-1 of controller 2 starts, self-locking motor 4- 1-1 drive protective plates 6 are supervised in real time to initial position, at the same time the protective plate position sensor 4-2 inside lowering or hoisting gear 4 Survey the position of protective plate 6；When protective plate position sensor 4-2 detects protective plate 6 moves to the initial value of its setting, protection Board position inductor 4-2 produces electric signal, transmits to controller 2, and the control self-locking motor 4-1-1 of controller 2 stops operating simultaneously certainly Lock；

4th step：When door is blocked by protective plate 6 completely, now pressure sensor 5 is started working, real-time monitoring ambient pressure, pressure Force snesor 5 produces electric signal, and transmits to controller 2, and monitoring information is fed back to user by controller 2.

A kind of automatic open-close anti-explosion fire safety-door device of the present invention and its method of work, the device conduct oneself with dignity and Low cost of manufacture, safety and environmental protection, it is easy to transport and installation；The plant automation degree is high, built-in multiple monitoring devices can and When tackle emergency situations；The device performance is stable, and material is firm, can successfully manage scene of fire, effectively isolation fire and fire The impurity particle such as the poisonous, pernicious gas produced in calamity and smog, dust.

The embodiment of the manufacture process of protective plate of the present invention 6 is the following is, embodiment is to further illustrate this Bright content, but should not be construed as limiting the invention.Without departing from the spirit and substance of the case in the present invention, to the present invention Modification and replacement that method, step or condition are made, belong to the scope of the present invention.

If not specializing, the conventional meanses that technological means used is well known to those skilled in the art in embodiment.

Embodiment 1

Protective plate 6 of the present invention is manufactured according to following steps, and is counted by weight：

1st step：3100 parts of the ultra-pure water that electrical conductivity is 4.87 μ S/cm is added in a kettle., starts agitator in reactor, turn Speed is 94rpm, starts heat pump, makes reactor temperature rise to 84 DEG C；Sequentially add 1- (4- bromophenyls) piperidin-4-yl ammonia 140 parts of base t-butyl formate, (5- amino -2- (4- isopropyl piperazine -1- bases) phenyl) 53 parts of methyl alcohol, 1- (4- (4,4,5,5- tetra- Methyl isophthalic acid, 3,2- diborane -2- bases) phenyl) 33 parts of piperidin-4-yl urethanes, stirs to being completely dissolved, adjusts pH It is worth for 4.29, agitator speed is adjusted to into 140rpm, temperature is 145 DEG C, esterification 18 hours；

2nd step：Take [4- [[3- (3- azepine pyridines) -2- pyrazines] epoxide] phenyl] -1H- benzimidazolyl-2 radicals -86 parts of base ketone, 4- (4- (4,4,5,5- tetramethyl -1,3,2- diborane -2- bases) phenyl) 57 parts of piperidines -1- carboxylate methyl esters are crushed, powder Particle diameter is 700 mesh；Add 81 parts of 5- amino-n- methoxyl group-n- methyl -2- pyridine carboxamides to be well mixed, be laid in pallet, Tiling thickness is 10mm, adopts dosage for 5.5kGy, the alpha ray irradiation 130 minutes that energy is 7.6MeV, and Isodose β x ray irradiation xs 130 minutes；

3rd step：The mixed-powder of the 2nd steps of Jing process is dissolved in 51ppm (5- amino -2- (4- isopropyl piperazine -1- bases) phenyl) first In 92 parts of alcohol, reactor is added, agitator speed is 162rpm, and temperature is 142 DEG C, and starting vavuum pump makes the vacuum of reactor - 0.42MPa is reached, this state response is kept 14 hours；Pressure release is simultaneously passed through radon gas, makes reacting kettle inner pressure for 1.53MPa, insulation Stand 6 hours；Agitator speed is promoted to 195rpm, simultaneous reactions kettle pressure release to 0MPa；Sequentially add 6- (2- pyrimidines) -2,6- 82 parts of diaza spiroheptane -2- carboxylic acid 1,1- dimethylethyl esters, -5 (3h)-carboxylic of tetrahydrochysene -1H- thienos [3,4-c] pyrroles After 72 parts of acid benzyl ester is completely dissolved, the stirring mixing of 94 parts of crosslinking agent is added so that the hydrophilic lipophilic balance of reactor solution is 6.36, insulation stands 16 hours；

4th step：When agitator speed is 257rpm, 2- acetyl group -4- methyl-n- phenethyl -4- amylene acid amides is sequentially added 51 parts, 5- (1- ((2- (trimethyl silyl) ethyoxyl) methyl) iodo- 1H- imidazos [4,5-b] pyridine -2- of the chloro- 5- of -6- Base epoxide) 41 parts of -2- methyl toluates and 5- amino -2- (4- ethyl -1- piperazines) 38 parts of phenmethylol, lift reactor pressure Power so as to reach 1.87MPa, temperature is 231 DEG C, polymerisation 26 hours；Reacting kettle inner pressure is down to after the completion of reaction 0MPa, is cooled to 26 DEG C, discharging, enters molding press and can be prepared by protective plate 6.

The crosslinking agent is 4- (4- bromophenyls) piperidines -1- carboxylate methyl esters.

Embodiment 2

Protective plate 6 of the present invention is manufactured according to following steps, and is counted by weight：

1st step：4200 parts of the ultra-pure water that electrical conductivity is 6.69 μ S/cm is added in a kettle., starts agitator in reactor, turn Speed is 162rpm, starts heat pump, makes reactor temperature rise to 124 DEG C；Sequentially add 1- (4- bromophenyls) piperidin-4-yl 285 parts of t-butyl carbamate, (5- amino -2- (4- isopropyl piperazine -1- bases) phenyl) 174 parts of methyl alcohol, 1- (4- (4,4,5, 5- tetramethyl -1,3,2- diborane -2- bases) phenyl) 125 parts of piperidin-4-yl urethanes, stir to being completely dissolved, It is 6.64 to adjust pH value, and agitator speed is adjusted to 212rpm, and temperature is 226 DEG C, esterification 28 hours；

2nd step：Take [4- [[3- (3- azepine pyridines) -2- pyrazines] epoxide] phenyl] -1H- benzimidazolyl-2 radicals -193 parts of base ketone, 4- (4- (4,4,5,5- tetramethyl -1,3,2- diborane -2- bases) phenyl) 181 parts of piperidines -1- carboxylate methyl esters are crushed, powder Particle diameter is 1000 mesh；Add 197 parts of 5- amino-n- methoxyl group-n- methyl -2- pyridine carboxamides to be well mixed, be laid in pallet Interior, tiling thickness is 18mm, adopt dosage for 7.9kGy, energy for 10.8MeV alpha ray irradiation 240 minutes, and agent on an equal basis The β x ray irradiation xs of amount 240 minutes；

3rd step：The mixed-powder of the 2nd steps of Jing process is dissolved in 69ppm (5- amino -2- (4- isopropyl piperazine -1- bases) phenyl) first In 161 parts of alcohol, reactor is added, agitator speed is 258rpm, and temperature is 166 DEG C, and starting vavuum pump makes the vacuum of reactor Degree reaches 4.54MPa, keeps this state response 23 hours；Pressure release is simultaneously passed through radon gas, makes reacting kettle inner pressure for 2.45MPa, guarantor Temperature stands 12 hours；Agitator speed is promoted to 283rpm, simultaneous reactions kettle pressure release to 0MPa；Sequentially add 6- (2- pyrimidines)- 119 parts of 2,6- diaza spiroheptane -2- carboxylic acid 1,1- dimethylethyl esters, tetrahydrochysene -1H- thienos [3,4-c] pyrroles -5 (3h), after -133 parts of benzyl carboxylate is completely dissolved, 213 parts of stirring mixing of crosslinking agent are added so that the hydrophilic and oleophilic of reactor solution Equilibrium valve is 9.56, and insulation stands 124 hours；

4th step：When agitator speed is 378rpm, 2- acetyl group -4- methyl-n- phenethyl -4- amylene acid amides is sequentially added 150 parts, 5- (1- ((2- (trimethyl silyl) ethyoxyl) methyl) iodo- 1H- imidazos [4,5-b] pyridine -2- of the chloro- 5- of -6- Base epoxide) 169 parts of -2- methyl toluates and 5- amino -2- (4- ethyl -1- piperazines) 144 parts of phenmethylol, lift reactor Pressure so as to reach 3.16MPa, temperature is 318 DEG C, polymerisation 48 hours；Reacting kettle inner pressure is down to after the completion of reaction 0MPa, is cooled to 32 DEG C, discharging, enters molding press and can be prepared by protective plate 6.

The crosslinking agent is piperidin-4-yl isopropyl carbamate.

Embodiment 3

Protective plate 6 of the present invention is manufactured according to following steps, and is counted by weight：

1st step：3650 parts of the ultra-pure water that electrical conductivity is 5.78 μ S/cm is added in a kettle., starts agitator in reactor, turn Speed is 128rpm, starts heat pump, makes reactor temperature rise to 104 DEG C；Sequentially add 1- (4- bromophenyls) piperidin-4-yl 212 parts of t-butyl carbamate, (5- amino -2- (4- isopropyl piperazine -1- bases) phenyl) 113 parts of methyl alcohol, 1- (4- (4,4,5, 5- tetramethyl -1,3,2- diborane -2- bases) phenyl) 79 parts of piperidin-4-yl urethanes, stirs to being completely dissolved, adjusts Section pH value is 5.46, and agitator speed is adjusted to 172rpm, and temperature is 185 DEG C, esterification 23 hours；

2nd step：Take [4- [[3- (3- azepine pyridines) -2- pyrazines] epoxide] phenyl] -1H- benzimidazolyl-2 radicals -139 parts of base ketone, 4- (4- (4,4,5,5- tetramethyl -1,3,2- diborane -2- bases) phenyl) 119 parts of piperidines -1- carboxylate methyl esters are crushed, powder Particle diameter is 850 mesh；Add 139 parts of 5- amino-n- methoxyl group-n- methyl -2- pyridine carboxamides to be well mixed, be laid in pallet Interior, tiling thickness is 14mm, adopt dosage for 6.7kGy, energy for 8.8MeV alpha ray irradiation 175 minutes, and agent on an equal basis The β x ray irradiation xs of amount 175 minutes；

3rd step：The mixed-powder of the 2nd steps of Jing process is dissolved in 60ppm (5- amino -2- (4- isopropyl piperazine -1- bases) phenyl) first In 126 parts of alcohol, reactor is added, agitator speed is 212rpm, and temperature is 154 DEG C, and starting vavuum pump makes the vacuum of reactor Degree reaches 2.06MPa, keeps this state response 19 hours；Pressure release is simultaneously passed through radon gas, makes reacting kettle inner pressure for 1.99MPa, guarantor Temperature stands 9 hours；Agitator speed is promoted to 240rpm, simultaneous reactions kettle pressure release to 0MPa；6- (2- pyrimidines) -2 is sequentially added, 100 parts of 6- diaza spiroheptane -2- carboxylic acid 1,1- dimethylethyl esters, tetrahydrochysene -1H- thienos [3,4-c] pyrroles -5 (3h), after -102 parts of benzyl carboxylate is completely dissolved, 153 parts of stirring mixing of crosslinking agent are added so that the hydrophilic and oleophilic of reactor solution Equilibrium valve is 7.96, and insulation stands 20 hours；

4th step：When agitator speed is 317rpm, 2- acetyl group -4- methyl-n- phenethyl -4- amylene acid amides is sequentially added 76 parts, 5- (1- ((2- (trimethyl silyl) ethyoxyl) methyl) iodo- 1H- imidazos [4,5-b] pyridine -2- of the chloro- 5- of -6- Base epoxide) 106 parts of -2- methyl toluates and 5- amino -2- (4- ethyl -1- piperazines) 88 parts of phenmethylol, lift reactor Pressure so as to reach 2.52MPa, temperature is 274 DEG C, polymerisation 37 hours；Reacting kettle inner pressure is down to after the completion of reaction 0MPa, is cooled to 28 DEG C, discharging, enters molding press and can be prepared by protective plate 6.

The crosslinking agent is 4- (4- bromophenyls) piperidines -1- carboxylic acid isopropyls.

Reference examples

Reference examples are the protective plate of commercially available certain brand.

Embodiment 4

Protective plate described in the protective plate 6 that embodiment 1～3 is prepared and reference examples carries out using effect contrast.To the two Compression strength, Unit Weight, heat distortion temperature, corrosion rate are counted, as a result as shown in table 1.

As seen from Table 1, protective plate of the present invention 6, its compression strength, Unit Weight, heat distortion temperature, corrosion rate The product of prior art production is superior to etc. index.

Additionally, as shown in figure 4, being the statistics that 6 fatigue of materials intensity of protective plate of the present invention changes with use time. Find out in figure, protective plate 6 used by embodiment 1～3, its fatigue of materials intensity is significantly better than existing product with use time intensity of variation Product.

Claims (5)

1. a kind of automatic open-close anti-explosion fire safety-door device and its method of work, including：Fixed mount (1), controller (2), report Alert device (3), lowering or hoisting gear (4), pressure sensor (5), protective plate (6), temperature sensor (7), dragging track (8)；Its feature It is that fixed mount (1) structure is in " Jiong " shape, and the internal both sides of fixed mount (1) are provided with dragging track (8), dragging track (8) number Measure as 2, dragging track (8) is screwed with fixed mount (1)；Dragging track (8) top is provided with lowering or hoisting gear (4), its Middle lowering or hoisting gear (4) central upper portion is provided with controller (2), and controller (2) is threadedly coupled with fixed mount (1)；The alarm (3) Dragging track (8) upper end is located in one of, alarm (3) is threadedly coupled with fixed mount (1)；The protective plate (6) is positioned at two Between individual dragging track (8), protective plate (6) is slidably connected with dragging track (8)；Protective plate (6) center is provided with pressure biography Sensor (5) and temperature sensor (7)；

The alarm (3), pressure sensor (5) and temperature sensor (7) are connected with controller (2) control by wire.

2. a kind of automatic open-close anti-explosion fire safety-door device according to claim 1 and its method of work, its feature exist In the lowering or hoisting gear (4) includes：Power set (4-1), protective plate position sensor (4-2), Smoke Sensor (4-3) are passed Moving axis (4-4), spring bearing (4-5), driven sprocket (4-6), support base (4-7), weight linear meter (4-8)；The power transmission shaft (4-4) One end is provided with power set (4-1), and power transmission shaft (4-4) other end is provided with driven sprocket (4-6), wherein power set (4-1) with Power transmission shaft (4-4) drive connection；It is disposed with support base (4-7) on the power transmission shaft (4-4), support base (4-7) quantity is 3,3 Individual support base (4-7) equidistant arrangement, support base (4-7) are fixedly connected with fixed mount (1)；The spring bearing (4-5) through Power transmission shaft (4-4) center, spring bearing (4-5) are fixedly connected with one of support base (4-7)；It is described positioned at power transmission shaft (4- 4) protective plate position sensor (4-2) and Smoke Sensor (4-3) are disposed with the support base (4-7) at center；The weight linear meter (4-8) on front side of dragging track (8), wherein weight linear meter (4-8) quantity is 2；

The power set (4-1), protective plate position sensor (4-2) and Smoke Sensor (4-3) are by wire and control Device (2) control is connected.

3. a kind of automatic open-close anti-explosion fire safety-door device according to claim 2 and its method of work, its feature exist In the power set (4-1) include：Self-locking motor (4-1-1), gearbox (4-1-2), shaft coupling (4-1-3), drive sprocket (4-1-4)；Self-locking motor (4-1-1) output shaft end is connected with gearbox (4-1-2), gearbox (4-1-2) and self-locking electricity Machine (4-1-1) drive connection；Gearbox (4-1-2) output shaft end is connected with shaft coupling (4-1-3), wherein shaft coupling (4- 1-3) other end is fixedly connected with power transmission shaft (4-4)；The drive sprocket (4-1-4) is positioned at shaft coupling (4-1-3) side, shaft coupling Device (4-1-3) is fixedly connected with power transmission shaft (4-4)；

The self-locking motor (4-1-1) is connected with controller (2) control by wire.

4. a kind of automatic open-close anti-explosion fire safety-door device according to claim 1 and its method of work, its feature exist In the protective plate (6) is molded by macromolecular material pressing mold, and the constituent and manufacture process of protective plate (6) is as follows：

First, protective plate (6) constituent：

Count by weight, 140～285 parts of 1- (4- bromophenyls) piperidin-4-yl t-butyl carbamate, (5- amino -2- (4- Isopropyl piperazine -1- bases) phenyl) 53～174 parts of methyl alcohol, 1- (4- (4,4,5,5- tetramethyl -1,3,2- diborane -2- bases) Phenyl) 33～125 parts of piperidin-4-yl urethanes, [4- [[3- (3- azepine pyridines) -2- pyrazines] epoxide] phenyl] -1H- benzene And 86～193 parts of imidazoles -2- bases ketone, 4- (4- (4,4,5,5- tetramethyl -1,3,2- diborane -2- bases) phenyl) piperidines - 57～181 parts of 1- carboxylate methyl esters, 81～197 parts of 5- amino-n- methoxyl group-n- methyl -2- pyridine carboxamides, concentration is 51ppm (5- amino -2- (4- isopropyl piperazine -1- bases) phenyl) 92～161 parts of methyl alcohol of～69ppm, 6- (2- pyrimidines) -2,6- phenodiazines Miscellaneous spiral shell [3.3] heptane -2- carboxylic acids 1,82～119 parts of 1- dimethylethyl esters, tetrahydrochysene -1H- thienos [3,4-c] pyrroles -5 (3h) - 72～133 parts of benzyl carboxylate, 94～213 parts of crosslinking agent, 2- acetyl group -4- methyl-n- phenethyl -4- amylenes acid amides 51～150 Part, 5- (1- ((2- (trimethyl silyl) ethyoxyl) methyl) iodo- 1H- imidazos [4, the 5-b] pyridine -2- bases of the chloro- 5- of -6- Epoxide) 41～169 parts of -2- methyl toluates, 5- amino -2- (4- ethyl -1- piperazines) 38～144 parts of phenmethylol；

The crosslinking agent is 4- (4- bromophenyls) piperidines -1- carboxylate methyl esters, 4- (4- bromophenyls) piperidines -1- carboxylic acid isopropyls, piperazine Any one in pyridine -4- base isopropyl carbamates；

2nd, the manufacture process of protective plate (6), comprises the steps of：

1st step：3100～4200 parts of the ultra-pure water that electrical conductivity is 4.87 μ S/cm～6.69 μ S/cm is added in a kettle., is started Agitator in reactor, rotating speed are 94rpm～162rpm, start heat pump, make reactor temperature rise to 84 DEG C～124 ℃；Sequentially add 1- (4- bromophenyls) piperidin-4-yl t-butyl carbamate, (5- amino -2- (4- isopropyl piperazine -1- bases) Phenyl) methyl alcohol, 1- (4- (4,4,5,5- tetramethyl -1,3,2- diborane -2- bases) phenyl) piperidin-4-yl urethane Ester, stirs to being completely dissolved, and it is 4.29～6.64 to adjust pH value, and agitator speed is adjusted to 140rpm～212rpm, and temperature is 145 DEG C～226 DEG C, esterification 18～28 hours；

2nd step：Take [4- [[3- (3- azepine pyridines) -2- pyrazines] epoxide] phenyl] -1H- benzimidazolyl-2 radicals-base ketone, 4- (4- (4, 4,5,5- tetramethyl -1,3,2- diborane -2- bases) phenyl) piperidines -1- carboxylate methyl esters are crushed, and powder diameter is 700～ 1000 mesh；Add 5- amino-n- methoxyl group-n- methyl -2- pyridine carboxamides to be well mixed, be laid in pallet, tile thickness For 10mm～18mm, adopt dosage for 5.5kGy～7.9kGy, energy for 7.6MeV～10.8MeV alpha ray irradiation 130～ 240 minutes, and β x ray irradiation xs of Isodose 130～240 minutes；

3rd step：The mixed-powder of the 2nd steps of Jing process is dissolved in 51ppm～69ppm (5- amino -2- (4- isopropyl piperazine -1- bases) Phenyl) in methyl alcohol, reactor is added, agitator speed is 162rpm～258rpm, and temperature is 142 DEG C～166 DEG C, starts vacuum Pump makes the vacuum of reactor reach -0.42MPa～4.54MPa, keeps this state response 14～23 hours；Pressure release is simultaneously passed through radon Gas, makes reacting kettle inner pressure for 1.53MPa～2.45MPa, insulation standing 6～12 hours；Agitator speed is promoted to 195rpm ～283rpm, simultaneous reactions kettle pressure release to 0MPa；Sequentially add 6- (2- pyrimidines) -2,6- diaza spiroheptane -2- carboxylic acids After 1,1- dimethylethyl esters, -5 (3h)-benzyl carboxylate of tetrahydrochysene -1H- thienos [3,4-c] pyrroles are completely dissolved, crosslinking agent is added Stirring mixing so that the hydrophilic lipophilic balance of reactor solution is 6.36～9.56, and insulation stands 16～24 hours；

4th step：When agitator speed is 257rpm～378rpm, 2- acetyl group -4- methyl-n- phenethyl -4- are sequentially added Amylene acid amides, 5- (1- ((2- (trimethyl silyl) ethyoxyl) methyl) iodo- 1H- imidazos [4,5-b] pyrroles of the chloro- 5- of -6- Pyridine -2- base epoxides) -2- methyl toluates and 5- amino -2- (4- ethyl -1- piperazines) phenmethylol, reactor pressure is lifted, 1.87MPa～3.16MPa is reached, temperature is 231 DEG C～318 DEG C, polymerisation 26～48 hours；Will be anti-after the completion of reaction Answer pressure in kettle to be down to 0MPa, be cooled to 26 DEG C～32 DEG C, discharge, enter molding press and can be prepared by protective plate (6).

5. a kind of method of work of automatic open-close anti-explosion fire safety-door device and its method of work, it is characterised in that the method Including following step：

1st step：After the device installation, power-on is now placed in the controller (2) inside the device and starts working, control The internal self-locking motor (4-1-1) of device (2) control power set (4-1) processed starts, and self-locking motor (4-1-1) drives drive sprocket (4-1-4) protective plate (6) is driven to initial position, at the same time positioned at the protective plate location sensitive that lowering or hoisting gear (4) is internal The position of device (4-2) real-time monitoring protective plate (6)；Which is moved to when protective plate position sensor (4-2) detects protective plate (6) During the initial value of setting, protective plate position sensor (4-2) produces electric signal, transmits to controller (2), controller (2) control Self-locking motor (4-1-1) stops operating and self-locking；

2nd step：When the temperature sensor (7) on protective plate (6) monitors that ambient temperature reaches the higher limit of its setting, Or when being located at the internal Smoke Sensor (4-3) of lowering or hoisting gear (4) and detecting smokescope higher than its setting value, smog sensing Device (4-3) and temperature sensor (7) produce electric signal, transmit to controller (2), controller (2) control self-locking motor (4-1-1) Start, while alarm (3) starts, self-locking motor (4-1-1) drives protective plate (6) to block up door seal, at the same time protective plate position The position of inductor (4-2) real-time monitoring protective plate (6) is put, after door is blocked by protective plate (6) completely, protective plate location sensitive Device (4-2) produces electric signal, transmits to controller (2), and controller (2) control self-locking motor (4-1-1) stops operating and self-locking；

3rd step：When the temperature sensor (7) on protective plate (6) monitors that ambient temperature is reduced to the lower limit of its setting When, or when being located at the internal Smoke Sensor (4-3) of lowering or hoisting gear (4) and detecting smokescope less than its setting value, smog Sensor (4-3) and temperature sensor (7) produce electric signal, transmit to controller (2), controller (2) control self-locking motor (4- 1-1) start, self-locking motor (4-1-1) drives protective plate (6) to initial position, at the same time positioned at lowering or hoisting gear (4) inside The position of protective plate position sensor (4-2) real-time monitoring protective plate (6)；When protective plate position sensor (4-2) detect it is anti- When backplate (6) moves to the initial value of its setting, protective plate position sensor (4-2) produces electric signal, transmits to controller (2), controller (2) control self-locking motor (4-1-1) stops operating and self-locking；

4th step：When door is blocked by protective plate (6) completely, now pressure sensor (5) is started working, real-time monitoring external world gas Pressure, pressure sensor (5) produce electric signal, and transmit to controller (2) inside, and monitoring information is fed back to use by controller (2) Family.